Control device



Jan. 27, 1953 Filed Feb. 29, 1952 H.` s. GLl-:AsoN

CONTROL DEVICE 27 2s FIG. 3 'A1 2e 2s i 25W s l I4 23 2| f o 33 36 s4 4 as 6 t 5 7 "9 g 35 I5 |4 29 A 27 O o l l 3a 24 27 26 FIG. 2 Y 2B 29 x43 2:5 ls 33203834 I 4| 5 `32 le -al a so 2e "35 l |4 Y 29 |25 27 O io u .O

ZKM

ATTORNEY Jan. 27, 1953 H. s. GLEASON CONTROL DEVICE 3 Sheets-Sheet 2 Filed Feb. 29, 1952 FIG. 4

INI/ENTOR.

HOWARD S. GLEASON ATTORNEY Jan. 27, 1953 H s, GLEASQN 2,627,056

CONTROL DEVICE Filed Feb. 29, 1952 -3 Sheets-Sheet 3 ek f l Pyle. 7

HVVENTOR. HOWARD S. GLEASON ATTORNEY Patented dan. 27, i953 CONTROL DEVICE Harvard S. Gleason, Rochester, N. Y., assigner to Stromberg-Carlson Company, a corporation of New York Application February 29, 1952, Serial No. 274,243

19 Claims. l

vMy invention relates to control devices, and more particularly to multi-function control devices.

My invention is especially applicable to remote control devices, butl is not limited thereto. In general, my invention may be said to belong to the class of control devices in which one or more electric motors are arranged to drive any one of a number of output shafts at a time, the shaft to be driven being selected by electrical controls at a convenient point. Such devices are useful where mechanical linkages from the control point to the mechanism are either undesirable or impractical. Obviously, devices of this class can be employed where remotely-located electrical pofor example, to the motors and to a source of motor power.

One application for multi-function controls is in the operation of a television receiver. Here it is usually desirable that the viewer be able to adjust the contrast, audio volume, channel selecting and line tuning controls. Moreover, it is desirable that the viewer be able to make these adjustments (from viewing position) without having to move to the receiver to manipulate the controls just enumerated.

Control devices adapted toperform multiple functions which have been known prior to my invention have either been of the type in which the switches and potentiometer themselves are located remotely, cr have been, as far as am aware, of the types requiring an electric motor for each function to be performed. The first of these types is objectionable because excessive capacitance, and therefore degraded performance, is usually associated with cables of useful length. Moreover, it has been common to provide a control station at the television receiver itself, thus duplicating the controls present at the control head situated at the remote control location. The main objection to the second type is its excessive cost. rlhe complications introduced by either type of control device hitherto known result in a certain degree of unreliability in operation. Another frequent objection to the use of a multi-function control device with a television receiver has been the excessive number of wires required in the cable connecting the control head with the television receiver.

It is accordingly an object of my invention to provide a multi-function control device of a new and useful type.

It is another object of my invention to provide a multi-function control device in which a single electric motor is arranged to drive any one of a plurality of output shafts at a time.

it is another object of my invention to provide a multi-function control device in which any one of a plurality of output shafts may be driven at a time, depending on the position of a function-selecting switch at the control head.

It is still another object of my invention to provide a multi-function control device which is simple in construction and low in cost, but which is also reliable in operation.

It is a further object of my invention to provide a multi-function control device in which a minimum number of conductors is employed in the cable between the control head and the point of application of the control functions.

It is yet another object of my invention to provide a control device for a television receiver in which the control head therefor can be placed either in the television receiver or at a location remote therefrom to prevent duplication of the function controls.

it is another object of my invention to provide a means for controlling the usually desired adjustments of a television receiver from a control head which may be located either at the receiver or at a remote location, together with means for keeping unused portions of the interconnecting cable out of sight and out of the Way inside the cabinet.

Further objects and advantages of my invention will become apparent as the following description proceeds, and the features of novelty which characterize my invention will be pointed out with particularity in the claims annexed to and forming a part of this specification.

For a better understanding of my invention, reference may be had to the accompanying drawing in which:

Fig. 1 is a front view of one embodiment of my invention;

Fig. 2 is a cross-section of an elevational view along line 2-2 of the embodiment shown in Fig. 1 with no power applied to the motor;

Fig. 3 is a sectional view along line 2-2 like that of Fig. 2, but with power applied to the motor;

` stub axle is a detent means. in the stop member thus form a portion of the Fig. 4 is a schematic wiring diagram employed to control the apparatus of Fig. 1;

Fig. 5 shows how the embodiment of Fig. l may be mounted on a television receiver chassis to control, one at a time, the positions of the various receiver controls;

Fig. 6 shows how the control head may be located remotely from a television receiver; and

Fig. '7 is a partially broken-away view of the receiver shown in Fig. 6, in which it is illustrated that the control head may be amxed to the cabinet, with the surplus wire disposed within the cabinet.

Referring now to the drawings, Figs. 1 and 2 illustrate the preferred disposition of the mechanical portions of one embodiment of my invention. Visible in Fig. 2 is electric motor I with its field structure 2 comprising core 3 and eld winding LI. The armature 5 of motor I is mounted on a shaft 5. The magnetic center of the field structure is represented by center line 1. Armature 5 is displaced from center line 'I when no voltage is applied, due to the action of resilient biasing means, orspring, 8. I have chosen to show spring 8 as performing the additional duty of a contact spring which makes a circuit with mating spring 9. Springs 8 and 9 are connected through leads I@ and II to a circuit whose purpose will be made clear in connection with the discussion of Fig. 4 below. At this time, however, itis suificient to point out that while I have shown the armature-biasing means combined with the circuit-making means, these functions might vobviously be performed by a spring separatel from the contacts without departing from the spirit and scope of my invention.

As shown in Fig. 2, motor I may be secured to a mounting member, or plate, I2 by means of screws I3 and nuts I4, although any convenient fastening method may be employed. Shaft 6 extends through a hole I5 in mounting member I2 so that a driving member, or sun gear, I6 may be mounted thereon. Continuously engaged with sun gear IB is a toothed portion I'I of an intermediate, or planetary gear member I8. Planetary gear member YI8 is supported on a position member, or carrier, I9 which, in turn, is mounted for rotation coaxially Vwith (but independently of) shaft 6. Planetary gear member I8 is secured to carrier I9 by means of a stub axle 2li, planetary gear member I8 being secured thereto, as by means of C-washer 2I.

It will be observed that axial motion of armature 5 into the magnetic center line 'i of the field structure of motor I is effective to move carrier I9 in an axial direction also. Therefore, planetary gear member I8 is moved in the same linear direction, provided the end 22 of axle 20 is opposite a recess 23 provided in mounting member I2. I provide a plurality of recesses 23 in mounting member I2, each of these recesses being located and dimensioned such that end 22 of stub axle 2i) can mate therewith. When end 22 is not opposite one of the holes 23 in mounting member I2, the end 22 butts against mounting member I2 and therefore prevents axial movement of the assembly comprising planetary member I8, stub axle 22, carrier I9, shaft S and armature 5. It can therefore be seen vthat mounting member I2 performs the function of a stop member, and that end 22 of The recesses 2S detent arrangement.

Further in accordance with. my nvelfm, I

provide one or more of driven members, or function gears, 24. As can be seen more clearly from Fig. 1, I have chosen to illustrate my invention as applied to a multi-function control device which performs four functions, these four functions being especially adaptable to the control of contrast, audio volume, channel selection, and fine tuning of a television receiver. These function gears are mounted for rotation independent of each other on their own stub axle portions 25. The latter are preferably secured in journals 2S afxed to mounting member I2 by means of nuts 21. Each stub axle portion 25 is retained in its individual journal 26 by means of a C-washer 28 or other convenient means. Each of the function gears is illustrated as being integrally formed with a capstan portion 29.

Carrier I2 is retained on shaft S by C-washer 32 which adjoins washers 30 and 3i. However, carrier I9 is consequently free to rotate independently of shaft 6, but moves axially therewith. I prefer this construction, but carrier IS could obviously be mounted on a separate axle for rotation coaxial with, but independent of, shaft B.

It will be observed that each of function gears 21% is located radially outwardly from shaft 6 at a distance which allows toothed portion 33 of planetary gear member I to mesh with one of the function gears 2li at a time. Through rotation of carrier I9 around shaft 6, toothed portion 33 can be Ybrought into mesh with any ofthe function gears 26 desired.

Y It will be further observed that rotation of the carrier I9 about shaft l is possible only when the detent end 22 of stub axle 2B is not opposite one of the holes 23. If power is applied to motor I, carrier I9 is rotated about shaft 5 (mainly because of the reaction of planetary gear member I8 against sun gear I6 but also because of the frictional drive provided by washers Si) and 3|) as long as detent end 22 of stub axle 22 butts against the front surface of the stop member, or mounting member, I2. However, when motor I is energized in order to perform this rotational function, armature 5 tends to pull toward the magnetic center 'I of motor I against the force of resilient biasing means 3. Therefore, whenever detent end 22 of stub axle 22 is opposite one of holes 23, detent end 22 will drop into that hole and rotation of carrier I9 will cease.

According to my invention, I dispose recessesV 23 such that rotation of carrier I9 ceases when detent end 22 drops into a recess 23 at the point where a corresponding one of function gears 24 is fully engaged with toothed portion 32 of planetary gear member I2. The particular function gear engaged is driven, as long as power continues to be applied to motor I, through the medium of planetary gear member IS and sun gear I6. Fig. 3 shows that in this situation, armature 5 has been pulled to the magnetic center of motor I because end 22 has arrived opposite a hole 23 and has mated therewith. At this time, however, it will be observe-:l from Fig. 3 that the first circuit made through contact springs 3 and 9 has been broken.

The embodiment of my invention illustrated in Figs. 1-3 also includes sets 34, 3%, 36 and 3l of normally-open contact springs. These springs may be supported from mounting member I2 by means of brackets 38, which are provided with insulating means 39. A contact-closing member 2i! is mounted on carrier I2, and, in the embodiment illustrated, acts as a nut for the threaded portion 4I of stub axle 2G to secure this stub I9. Memberll is preferably constructed of insulating material. From the positions of contact-spring sets 34-37 shown in Fig. 1, it can be -seen that one of these sets or normally-open contacts is closed by contact closing member d@ whenever detent end 22 drops into one oi the recesses 23.

The control circuit for the mechanical apparatus shown in Figs. 1-3 is diagrammed in Fig- 4. Contact sets 34--31 are here indicated schematically, as is electric motor I. vPower for electric motor I is derived from power source 42. I have indicated power sources 42 in block form because those skilled in the electrical art will readily understand that any conventional source of power, such as a central energy station, or conventional wall outlet, etc., may be employed as a power source for the motor. I have illustrated motor AI as being a shaded pole reversible type,

andihence power source 42 must be or the alterhating-current type. A capacitor d3 maybe employed when the shaded pole type of motor is lused inorder to produce a current in one eld winding displaced 90 from that in the other winding.

The control head for a multi-function control device constructed according to my invention may comprise only two switches. The first of these, a directional switch 44, may be combined with means for turning power source 42 on and off. Thus switch 44 may have a center stop position, as A'shown in Fig. 4, with a forward position to one side of center and a reverse position to the other side of center. To accomplish this type of operation, switch 44 may be arranged to close contacts 45 whenever the switch control knob is depressed, or moved downward. Furthermore, switch 44 may be arranged to open either one or two sets of contacts, 46 and di, depending upon the direction in which the switch control knob is turned. I prefer to employ the type of switch schematically indicated because the contact springs can be made to act as springs to return the switch knob or lever to its center off position, but those skilled in the art will readily see that other types of direction switches may be employed.

The second switch in the control head may be a function-selecting switch 48 which may have positions 49, 50, I and 52 corresponding respectively to the four positions which may be assumed, in the embodiment here being described, by carrier I 9.

In operation, the function-selecting switch is set in the particular position corresponding to the particular function it is desired to control. After selecting the function to be controlled, the direction switch 44 may be depressed and actuated :from its center stop position to the position corresponding to the direction it is desired to have motor I rotate. In the case of a television receiver, for example, it might be desired to increase the audio volume. In this event, function-selecting switch 48 is set on the position corresponding to the audio volume control function. Next, direction switch t!! is depressed and turned in the increase direction.

When contacts 45 are closed by depression of the knob of switch 44, the windings of motor I are energized. This causes armature 5 to pull to the magnetic center of the field structure of A,the motor. If the direction switch knob is inerely depressed without being turned, shaft 6 breaks the rst energizing circuit for the motor at conf tacts 8 and 9. Thearmature cannot turn under these circumstances because capacitor 43 is shortcircuited by contacts 46 and 41,'and there can consequently be no phase difference in the motor field -winding currents, as is required to produce a torque. Breaking the circuit causes the magnetic iield to collapse and therefore allows shaft 6 to return to its original position. But this remakes the original circuit and causes the foregoing action to repeat until the direction switch knob is either turned or released.

In normal usage, the knob is turned simultaneously with depression or else a fraction of a second later. As soon as this is done, either contacts 46 or [si (depending upon the direction of motor rotation required) are opened. This removes the short circuit from capacitor 43 and armature consequently rotates whenever contacts and S are closed. Carrier I9 consequently is rotated until planetary gear member I8 meshes with the particulas` function gear to perform the desired function. The capstan of the proper function gear may be linked, as by means of a exible cable or belt, to the shaft of the audio volume control of the television receiver, in order to rotate the shaft.

Assume, for example, that function switch 3 is set on contact Eil, and that contact 5% corresponds to the audio control function. Assume further that carrier I3 is positioned such that contacts 34 are closed, and that when the user of the control device moves the directional control switchto the increase position, contacts 46 are opened. Power is thus applied from terminal of power supply 42, through the winding of motor i, lead'li, contacts d?, power switch contacts 4t, contacts 8 and 8, to terminal 55 of power source 42. Motor I now rotates and consequently moves carrier I9, because of the reaction of pianetary gear member I8 against sun gear I6 (see Fig. 2), enough to prevent detent end 22 from mating with Athe particular hole 23 opposite which it had just been situated. Since detent end 22 then butts against stop member I2, arinature' cannot pull over to the magnetic center I of field structure 2.

When carrier i has been rotated 90, detent end 22 is positioned opposite another recess 23. Then, due to the magnetic force of held structure 2 acting on armature 5, detent end 22 drops into that particular recess 23. ./is soon as this occurs, armature 5 is able to move toward center line i, thus moving contact spring 8 away from spring e and so breaking the first circuit to the motor.

Since its first circuit is broken contacts 8 and 9, motor I stops. This allows armature 5 to move axially away from center line i under the biasing iniiuence of contact spring S, thereupon remaking the first circuit traced above. Carrier I9 is consequently rotated as explained previously.

When carrier It has rotated another 9G, detent end 22 of stub axle 25B is again opposite one of recesses 23. Under the infiuence of the magnetic force of heid structure 2, armature 5 moves axially as detent end 22 drops into the recess. As before, the iirst circuit to motor i is broken as contact 8 moves away from contact However, in this case a second circuit is made as follows: terminal 5S of power source d2, winding of motor I, conductor 5d, contacts Ii?, power switch contacts 45S, contacts S (closed as the result of contact closing-member 4) arriving directly opposite them), contact 50, and switch e8 to terminal 55 of power source 42. Since a second circuit is now made to motor I, the motor continues to rotate and to drive, through the medium of planetary gear member I8, the particular function gear corresponding to contact 55, and therefore to -the audio control function. This action continues until the operator releases the knob directional switch 44, thus breaking the power circuit at contacts 45.

It can be appreciated that the operator may reverse the direction of motor rotation at will by turning the knob of switch @il in the opposite direction. This does not cause carrier i9 to rotate, if the operator has not yet released the direction switch knob; but if release of the knob has occurred, carrier I9 is rotated through 360 (this time in the opposite direction) until the same function gear is engaged. It can be seen that the non-release type of operation is advantageous in that rapid and easy adjustment of such controls as the fine tuning of a television receiver is greatly facilitated.

From the foregoing explanation, it will be seen that any one of the function gears can be rotated at will ineither direction depending upon the setting of function-selecting switch i3 and the actuation of direction switch 413.

One method of applying this embodiment of my invention to the control of the contrast, audio volume, channel selecting and ne tuning function of a television receiver is illustrated in Fig. 5. Here each of the capstans 2B is connected by means of a flexible belt or cable 56 to a drum 5'! secured to the control shaft 53 of a corresponding one of the controls on the front of television receiver chassis S. The picture tube of the television receiver is indicated at 60 and its support at 6|.

The mechanical portion of this embodiment of my invention is illustrated as being attached to the receiver chassis in an acceptable location, although it will be understood that it may be mounted in any convenient location. Pulleys, such as idlers 62, may be employed to route a particular cable to the proper control drum. The mechanical portion of this embodiment, that is, the portion mounted on member l2, may be attached to chassis 59 by any suitable means, such as by welding. It will be obvious, however, that many alternative mountings might be devised without departing from the spirit of my invention. In fact, mounting member l2 might be mounted on the television receiver cabinet and not on the chassis at all.

Fig. 6 illustrates how controls et and 43 may be mounted in a housing S to form a remote control for a television receiver chassis housed in a cabinet 65. A cable connectingv theremote posed in the bottom interior of cabinet 65 as Y shown in Fig. 7.

To assist in reeling in cable 55, I may prefer to provide a motor 68 of either the electrical or spring-wound type. Motor 68 is preferably equipped with a rubber-tired pulley 59. An idler pulley 10 is mounted on an arm H pivcted about axis 12, the cable 66 being disposed between pulleys 69 and '10. A spring 13 acting on arm 'H insures that cable'GB will be held in place between the pulleys at all times and especially while the latter are in motion. If a spring wound motor is used, it may be arranged to be wound by the action of pulling out cable 65 when remote control head Eli is taken to a location in the room other than where the receiver is situated. Motor E8 can then be arranged to be unlatched by a slight pull on the cord, in the fashion of a roller window shade, to reel in cable 66. A ratchet mechanism well-known in the field of cord reels may be employed.

Unused portions of cable 66 are kept within the cabinet and out of the way by the foreging arrangement. When an electric motor is used, a ratchet-actuated switch may be employed for motor 68, or switches may be located in any convenient place, such as on the receiver itself or on the remote control head itself. In the latter case, of course, additional wires are required in cable 6E.

Those skilled in the art to which my invention appertains will readily comprehend that more or fewer than the four function gears may be disposed for engagement with planetary gear member I8. It is a feature of my invention that for the control of n function gears, only n-l-i conductors are required in the cable interconnecting the control head and the remainder of the apparatus. Y

While I have shown and described my invention as applied to a specific embodiment thereof, other modifications will readily occur tothose skilled in the art. Friction drive members, such as rubber-tired wheels, for example, may be used in place of sun gear I6, planetary gear member i8 or function gears 24. I do not, therefore, desire my invention to be limited to the specific arrangement shown and described, and I intend in the appended claims to cover all modications within the spirit and scope of my invention.

What I claim is:

l. In a multi-function control device, the combination of a plurality of output shafts; an electric motor operable to drive any one of said cutput shafts in either direction; a source of power for said motor; a control circuit for said motor; a remotely disposed motor directional control switch and a remotely disposed output shaft selecting switch; said control circuit being arranged to connect said motor to said source of power and to cause said motor to rotate any one lof said output shafts in either direction, the particular output shaft and the direction of its rotation being dependent upon the setting of said motor directional switch and said output shaft selecting switch.

' 2. In a multi-function control device, the combination of n. output shafts; an electric motor operable to drive any one of said output shafts in either direction; a source of power for said motor; a control circuit for said motor; remote control means containing a motor directional control switch and an output shaft selecting switch; said control circuit being arranged to connect said motor to said source of power and to cause said motor to rotate any one of said output shafts in either direction, the particular output shaft and the direction of its rotation being dependent upon the setting of said motor directional switch and said output shaft selecting switch in said remote control head, said'remote control head being connected to said motor and said source of power by a cable containing n+4 conductors.

3. In a multi-function control device, the combination of a driving member; an intermediate member continuously engaging said driving member; a plurality of driven members rotatable independently of one another, said driven members being located such that each may be singly engaged by said intermediate member; means for maintaining said intermediate member in engagement with any given one of said driven members; means for releasing said maintaining means, and means responsive to the release of said maintaining means for moving said intermediate member out of engagement with said any one of said driven members and into engagement with another one of said driven members.

4. In a multi-function control device, the cornbinaticn of a sun gear; driving means' for said sun gear; a planetary gear member continuously engaging said sun gear; a carrier for said planetary gear member mounted for coaxial rotation` with respect to said sun gear; amounting member; a plurality of function gears mounted on said mounting member for rotation'independently of one another, said function gears lbeing located relative to said sun gear such that each may be singly engaged by said planetary gear member; detent means adapted to maintain said planetary gear member in engagementr with any given one of said function gears; and means for releasing said detent means, whereby upon release of said detent means said carrier is rotated through the reaction of said planetary gear member against said sun gear, out of engagement with any particular one of said function gears and into engagement withanother one of said function gears.

5. In a multi-function control device, the combination of a driving member; an intermediate member continuously engaging said driving member; a plurality of driven members rotatable independently of one another, said driven members being located such that each may be singly engaged by said intermediate member; detent means mounted with said intermediate member; resilient means for biasing saidA detent means toward the disengaged position thereof; a stop member; a plurality of recesses located to receive said detent means when Vsaid intermediate memu ber is in full engagement with a corresponding one `of said driven members; and meansV for optionally overcoming the force of said resilient means, said last-named means being operative to move said intermediate member out of engagement with a particular one of said driven meinbers and continuing said movement until said detent means mates with a particular one of said recesses, thus bringing said intermediate member into full engagement with the driven member corresponding to said particular recess` 6. In a multi-function control device, the combination of a sun gear; driving means for said sun gear; a planetary gear member continuously engaging said sun gear; a carrier for said planetary gear member mounted for coaxial rotation with respect to said sun gear; a mounting member; a plurality of function gears mounted on said mounting member for rotation independently of one another, said function gears being located relative to said sun gear such that each may be singly engagedby said planetary gear member; detent means mounted for rotation with said carriers; resilient means for biasing said detent means toward the disengaged position thereof; a stop member; a plurality of recesses in said stop member, each said recess being located to receive said detent means when said planetary gear member is in full engagement with a corresponding one of said function gears; and means for optionally overcoming the force of said resilient means, whereby when said lastnamed means is activated, said carrier is rotated, through the reaction of said planetary gear meinber against said sun gear, until said detent means nia-tes with a particular one of said recesses, thus bringing said planetary gear member into full engagement with the function gear corresponding to said particular recess, and said corresponding function gear is thereafter driven by said sun gear through the medium of said planetary gear member.

7. In a multi-function control device, the combination of a driving member; an electric motor for driving said driving member; a source of power for said motor; an intermediate member continuously engaging said driving member; a movable carrier for said intermediate member; a plurality of driven members rotatable independently of one another, said driven members being located suon that each may be singly engaged by said intermediate member; detent means mounted for movement with said carrier; a stop member for said detent means; a plurality of recesses in said stop member, each said recess being'located to receive said detent means when said intermediate member is in full engagement with a corresponding one of said driven members; resilient means for biasing said detent means toward the disengaged position thereof; a control circuit for controlling the application of power from said source to said motor; and means controlled by said control circuit for overcoming the force of said resilient means, whereby said lastnamed means may be activated under the direction of said control circuit to cause the release of said detent means from a particular one of said recesses and to cause said carrier to move until said detent means is opposite one of said recesses; and thereafter, as directed by said control circuit, the driven member corresponding to said last-mentioned recess may be driven by said driving member through the medium of said intermediate member.

8. In a multi-function control device, the cornbination of a sun gear; an electric motor for driving' said sun gear; a source of power for said motor; a planetary gear member' continuously engaging said sun gear; a carrier for said planeta-ry gear member, said carrier being mounted for coaxial rotation with respect to said sun gear; a mounting member; a plurality of function gears mounted on said mounting member for rotation independent of one another, said function gears being located relative to said sun gear such that each may be singly engaged by said planetary gear member; detent means mounted for rotation with said carrier; a stop member for said detent means; a plurality of recesses in said stop member, each said recess being located to receive said detent means when said planetary gear member is in full engagement with a corresponding one of said function gears; resilient means for biasing said detent means toward the disengaged position thereof; a control circuit for controlling the application of power from said source to said motor; and means controlled by said controlcircuit for overcoming the force or" said resilient means, whereby said last-named means may be activated under the direction oi said control circuit to cause the release of said detentmeans from a particular one of said recesses, thus causing said carrier to rotate, because of the reaction of said planetary gear member against said sun gear, until said detent means is opposite one of said recesses; and thereafter, as directed by said control circuit, the function gear corresponding to said last-mentioned recess may be driven by said sun gear through the medium of said planetary gear member.

9. In a multi-function control device, the cornbination of a driving member; an electric motor having a eld structure and an armature axially displaceable from the magnetic center of said eld structure, said armature being coupled for rotation to said driving member; a source of power for said motor; an intermediate member continuously engaging said driving member; a carrier for said intermediate member mounted for movement with respect to said driving member, said carrier further being mounted for axial movement with said armature; a plurality of driven members rotatable independently of one another; said driven members being located such that each may be singly engaged by said intermediate member; detent means mounted for movement with said carrier; a stop member for said detent means; a plurality of recesses in said stop member, each said recess being located to receive said detent means when said intermediate member is in full engagement with a corresponding one of said driven members; resilient means acting to displace said armature axially from the magnetic center of said eld structure,

thereby to move said detent means mounted on said carrier into a disengaged position relative to said recess; switch means operative only when said armature is displaced from said magnetic center of said field structure to complete a rst circuit from said source of power to said motor; and means for making a second circuit from said source of power to said motor, whereby upon the activation of said source of power, saidV motor is energized through said nrst circuit, thereby to move said carrier until said detent means is opposite one of said recesses and mates therewith, whereupon said nrst circuit is broken but said motor is then energized through said second circuit.

l0, In a multi-function control device, the combination of a sun gear; an electric motor having a field structure and an armature axially displaceable from the magnetic center of said eld structure, said armature being coupled for rotation to said sun gear; a source of power for said motor; a planetary gear member continuously engaging said sun gear; a carrier for said planetary gear member mounted for rotation coaxially with respect to said sun gear, said carrier further being mounted for axial movement with said armature; a mounting member; a plurality or function gears mounted on said mounting member for rotation independent of one another, said function gears being located relative to said sun gear such that each may be singly engaged by said planetary gear member; detent means mounted for rotation with said carrier; a stop member for said detent means; a plurality of recesses in said stop member, each said recess being located to receive said detent means when said planetary gear member is in full engagement with a corresponding one of said function gears; resilient means acting to displace said armature axially from the magnetic center .of said eld structure, thereby to move said detent means mounted on said carrier into a disengaged position relative to said recesses; switch means operative only when said armature is displaced from said magnetic center of said neld structure to complete a nrst circuit from said source of power to said motor; and means for making a second circuit from said source of power to said motor, whereby upon the activation of said source of power, said motor is energized through said rst circuit, thereby to rotate said carrier, because of the reaction of said planetary gear member against said sun gear, until said detent means is opposite one of said recesses and mates therewith, whereupon said rst circuit is broken but said motor is then energized through .said second circuit.

1l. In a multi-function control dvice, the combination of a driving member; an electric motor having a field structure and an armature axially displaceable from the magnetic center of said eld structure, said armature being coupled for rotation to said driving member; a source of power for said motor; an intermediate member continuously engaging said driving member; a carrier for said intermediate member mounted for movement with respect to said driving member; said carrier further being mounted for axial movement with said armature; a plurality of driven members rotatable independently of one another; said driven members being located relative to said driving member such that each may be singly engaged by said intermediate member; detent means mounted for movement with said carrier; a stop member for said detent means; a plurality of recesses in said stop member, each said recess being located to receive said detent means when said intermediate member is in full engagement with a correseponding one or said driven members; resilient means acting to displace said armature axially from the magnetic center of said neld structure, switch means operative only when said armature is displaced rom said magnetic center of said neld structure to complete ariirst circuit from said source of power to said motor, thereby to move said detent means mounted en said carrier into ardisengaged position relative to said recesses; a plurality of sets of normally open contacts corresponding respectively to said plurality of driven members; an actuator mounted on said carrier for closing said contacts, one set at a time, as said carrier brings said intermediate member into full engagement with a corresponding one of said driven members; and means for completing a second circuit from said source of power to said motor through said contacts, whereby upon actuation oi said source or power, said motor is energized through said nrst circuit, thereby to move said carrier until said detent means is opposite one of said recesses and mates therewith, whereupon said carrier is stopped from further movement and said rst circuit to said motor is broken, but said motor is then energized through said second circuit, including a particular set of said contacts, to drive the corresponding one of said driven members through the medium of said driving member and said intermediate member.

12. In a multi-function control device, the combination of a sun gear; an electric motor having a eld structure and anrarmature axially displaceable from the magnetic center of said field structure, said armature being coupled for rotation to said sun gear; a source ci power for said motor; a planetary gear member continuously engaging said sun gear; a carrier for said planetary gear member mounted for rotation coaxially with respect vto said sun gear; said carrier further being mounted for axial movement with said armature; a mounting member; a plurality of function gears mounted on said mounting member for rotation independent of one another; said function gears being located relative to said sun gear such that each may be singly engaged bysaid planetary gear member; detent means mounted for rotation with said carrier; a stop member for said detent means; a plurality of recesses in said stop member, each said recess being located to receive said detent means when said planetary gear member is in full engagement with a corresponding one of said function gears; resilient means acting to displace said armature axiallyl from the magnetic center of said field structure, switch means operative only when said armature is displaced from said magnetic center of said eld structure to complete a first circuit from said source of power to said motor, thereby to move said detent means mounted on said carrier into a disengaged position relative to said recesses; a plurality of sets of normally open contacts corresponding respectively vto said plurality of function gears; an actuator mounted on said carrier for closing said contacts, one set at a time, as said carrier brings said planetary gear member into full engagement with a corresponding one of said function gears; and means for completing .a second circuit from said source of power to said motor through said contacts, whereby upon actuation of said source of power, said motor is energized through said first circuit, thereby to rotate said carrier, because of the reaction of said planetary gear member against sun gear, until said detent means is opposite one of said recesses and mates therewith, whereupon said carrier is stopped from further rotation and said rst circuit to said motor is broken, but said motor is then energized through said second circuit, including a particular set of said contacts, to drive the corresponding one of said function gears through the medium of said sun gear and said planetary gear member` 13. ln a multi-function control device, the cornbination of a driving member; an electric motor having a eld structure and an armature axially displaceable from the magnetic center of said field structure, said armature being coupled for rotation to said driving member; a source of power for said motor; an intermediate member continuously engaging said driving member; a carrier for said intermediate member mounted for movement with respect to said driving member; said carrier further being mounted for axial movement with said armature; a plurality of driven members rotatable independently of one another; said driven members being located such that each may be singly engaged by said intermediate member; detent means mounted for movement with said carrier; a stop member for said detent means; a plurality of recesses in said stop member, each said recess being located to receive said detent means when said intermediate member is in full engagement with a corresponding one of said driven members; resilient means acting to displace said armature axially from the magnetic center of said held structure, switch means operative only when said armature is displaced from said magnetic center of said field structure to complete a rst circuit from said source of power to said motor, thereby to move said detent means mounted on said carrier into a disengaged position relative to said recesses; a plurality of sets of normally open contacts cor- CII responding respectively to said plurality of driven members; an actuator mountedv on said carrier for closing said contacts, one set at a time, as said carrier brings said intermediate member into full engagement with a corresponding one of said driven members; and a function-selecting switch operative to complete a second circuit including any one of said sets of contacts between said source of power and said motor, whereby upon actuation of said source of power, said motor is energized through said first circuit, thereby to move said carrier until said detent means is opposite one of said recesses. and mates therewith, whereupon said carrier is stopped from further movement and said first circuit to said motor is broken, but said motor is then energized through said second circuit, including the particularset of said contacts selected by said function-selecting switch, to drive the particular one of said driven members corresponding to said particular set of contacts.

14. In a multi-function control device, the combination of a sun gear; an electric motor having a field structure and an armature axially displaceable from the magnetic. center of said field structure, said armature being coupled for rotation to said sun gear; a source of power for said motor; a planetary gear membercontinuously engaging said sun gear; a carrier for said planetary gear member mounted for rotation coaxially with respect to said sun gear; said carrier further being mounted for axial movement with said armature; a mounting member; a plurality of function gears mounted on said mounting member for rotation independent of one another; said function gears being located relative to .said sun gear such that each may be singly engaged by said planetary gear member; detent means mounted for rotation with said carrier; a stop member for said detent means; a plurality of recesses in said stop member, each said recess being located to receive said detent means when said planetary gear member is in full engagement with a corresponding one of said function gears; resilient means acting to displace said armature axially from the magnetic center of said eld structure, switch means operative only when said armature is displaced from said magnetic center of said field structure to complete a rst circuit from said source of power to said motor, thereby to move said detent means mounted on said carrier into a disengaged position relative to said recesses; a plurality of sets of normally open contacts corresponding respectively to said plurality of function gears; an actuator mounted on said carrier for closing said contacts, one set at atime, as said carrier brings said planetary gear member into full engagement with a corresponding one of said function gears; and a function-selecting switch operative to complete a second circuit including any one of said sets of contacts between said source of power and said motor, whereby upon actuation of said source of power, said motor is energized through said first circuit, thereby to rotate said carrier, because of the reaction of said planetary gear member against sun gear, until said'detent means is opposite one of said recesses and mates therewith, whereupon said carrier is stopped from further rotation and said first circuit to said motor is broken, but said motor is then energized through said second circuit, including the particular set of said contacts selected by` said function-selecting switch, to drive, through the medium of said sun gear and said planetary gear member, the

i particular diie f said function gears corresponding to said particular set of contacts.

15. In a multi-function control device, the combination of a driving member; an electric motor having a field structure and an armature axially displaceable from the magnetic center of said field structure, said armature being coupled for rotation to said driving member; a source of power for said motor; an intermediate member continuously engaging said driving member; a carrier for said intermediate member mounted for movement with respect to said driving member; said carrier further being mounted for axial movement with said armature; a plurality of `driven members rotatable independently of one another; said driven members being located such that each may be singly engaged by said intermediate member; detent means mounted for movement with said carrier; a stop member for said detent means; a plurality of recesses in said stop member, each said recess being located to receive said detent means when said intermediate member is in full engagement with a corresponding one of said driven members; resilient means acting to displace said armature axially from the magnetic center of said field structure, switch means operative only when said armature is displaced from said magnetic center of said field structure to complete a first circuit from said sourcev of power to said motor, thereby to move .said detent means mounted on said carrier into .a disengaged position relative to said recesses; a plurality of sets of normally open contacts cor- .responding respectively to said plurality of driven members; an actuator mounted on said carrier ifor closing said contacts, one set at a time, as

.said carrier brings said intermediate member into .full engagement with a corresponding one of said driven members; and a remote-control head hav- '.ing a function-selecting switch operative to com- ;plete a second circuit including any one of said :sets of contacts between said source of power and said motor, and a motor-direction control switch ihaving forward, reverse and o positions, said head being connected to'said motor by a flexible multi-conductor cable, whereby upon actuation of said source of power, said motor is energized through said first circuit, thereby to move said carrier until said detent means is opposite one of said recesses and mates therewith, whereupon said carrier is stopped from further movement and said first circuit to said motor is broken, but said motor is then energized through said second circuit, including the particular set of said contacts selected by said function-selecting switch, to drive, through the medium of said driving member and said intermediate member, the particular one of said driven members corresponding to said particular set of contacts.

15. In a multi-function control device, the combination of a sun gear; an electric motor having a field structure and an armature axially displaceable from the magnetic center of said eld structure, said armature being coupled for rotation to said sun gear; a source of power for said motor; a planetary gear member continuously engaging said sun gear; a carrier for said planetary gear member mounted for rotation coaxially with respect to said sun gear; said carrier further being mounted for axial movement with said armature; a mounting member; a plurality of function gears mounted on said mounting member for rotation independent of one another; said function gears being located relative to said sun gear such that each may be singly engaged by said acca-056 16 planetary gear member; detent means mounted for rotation with said carrier; a stop member for said detent means; a plurality of recesses in said stop member, each said recess being located to receive said detent means when said planetary gear member is in full engagement with a corresponding one of said function gears; resilient means acting to displace said armature axially from the magnetic center of said eld structure, switch means operative only when said armature is displaced from said magnetic center of said field structure to complete a first -circuit from said source of power to said motor, thereby to move said detent means mounted on said carrier into a disengaged position relative to said recesses, a plurality of sets of normally open contacts corresponding respectively to said pluralityof function gears; an actuator mounted on said carrier for closing said contacts, one set at a time, as said carrier brings said planetary gear member into full engagement with a corresponding one of said function gears; and a remote-control head having a function-selecting switch operative to complete a second circuit including any one of said sets of contacts between said source of power and said motor, and a motor-direction control switch having forward, reverse, and stop positions, said head being connected to said motor by exible multiconductor cable, whereby upon actuation of said source of power, said motor is energized through said rst circuit, thereby to rotate said carrier, because of the reaction of said planetary gear member against sun gear, until said detent means is opposite one of said recesses and mates therewith, whereupon said carrier is stopped from further rotation and said first circuit to said motor is broken, but said motor is then energized through said second circuit, including the particular set of said contacts selected by said function-selecting switch, to drive, through the medium of said sun gear and said planetary gear member, the particular one of said function gears corresponding to said particular set of contacts.

17. In a multi-function control device, the combination of a sun gear; an electric motor having a field structure and an armature axially displaceable from the magnetic center of said eld structure, said armature being coupled for rotation to said sun gear; arsource of power for said motor; a planetaryV gear member continuously engaging said sun gear; a carrier for said planetary gear member mounted for rotation coaxially with respect to said sun gear; said carrier further being mounted for axial movement with said armature; a mounting member; a plurality of function gears mounted on said mounting member for rotation independent of one another; said function gears being located relative to said sun gear such that each may be singly engaged by said planetary gear member; detent means mounted for rotation with said carrier; a stop member for said detent means; a plurality of recesses in said stop member, each said recess being located to receive said detent means when said planetary gear member is in full engagement with a corresponding one of said function gears; resilient means acting to displace said armature axially from the magnetic center of said field structure, switch means operative only when said armature is displaced from said magnetic center of said field structure to complete a first circuit from said source of power to said motor, thereby to move said detent means mounted on said carrier into a disengaged position relative'to said recesses; a plurality of sets of normally open contacts correspending respectively to said plurality of function gears; an actuator mounted on said carrier for closing said contacts, one set at a time, as said carrier brings said planetary gear member into full engagement with a corresponding one of said function gears; and a cabinet for housing the foregoing items; a remote-control head having a. function-selecting switch operative to complete a. second circuit including any one of said sets of contacts between said source of power and said motor, and a motor-direction control switch having forward, reverse, and stop positions, said head being connected to said motor by flexible multiconductor cable, and means for reeling any unneeded portion of said cable into said cabinet; whereby upon actuation of said source of power, said motor is energized through said first circuit, thereby to rotate said carrier, because of the reaction or" said planetary gear member against sun gear, until said detent neans is opposite one of said recesses and mates therewith, whereupon said carrier is stopped from further rotation and said rst circuit to said motor is broken, but Said motor is then energized through said second circuit, including the particular set of said contacts selected by said function-selecting switch to drive, through the medium of said sun gear and said planetary gear member, the particular one of said function gears corresponding to said particular set of contacts.

18, In a multi-function control device, the combination of an electric motor having a field structure and an armature axially displaceable from the magnetic center of said eld structure; a

source of power for said motor; a position member having an axis of rotation, said position member being coupled for rotation about said axis to said armature; detent means mounted for rotation with said carrier; a stop member for said detent means; a plurality of recesses in said stop member representing, and corresponding to, various angular positions of said position member, each said recess being adapted to mate with said detent means; resilient means acting to displace said armature axially from the magnetic center of said eld structure, thereby to move said detent means mounted on said position member into a disengaged position relative to said recesses; switch means operative only when said armature is displaced from said magnetic-center of said eld structure to complete a rst circuit from said source of power to said motor; a plurality of sets of normally-open contacts, each of said sets corresponding to a .particular one of said recesses; an actuator carried by said position member; each said set of contacts being positioned to be closed by said actuator when said the magnetic center line of said iield structure and said switch means to break said iirst circuit, this procedure thereupon repeating until said detent means mates with a particular one of said recesses corresponding to a particular set of said contacts through which said last-named means has closed said second circuit.

19. In a multi-function control device, the combination of an electric motor having a iield structure and an armature axially displaceable from the magnetic center of said neld structure; a source of power for said motor; a position member having an axis of rotation, said position member being coupled for rotation about said axis to said armature; detent means mounted for rotation with said carrier; a stop member for said detent means; a plurality of recesses in said stop member representing, and corresponding to, various angular positions of said position member, each said recess being .f .apted to mate with said detent means; resilient means acting to displace said armature axially from the magnetic center oi said eld structure, thereby to move said detent means mounted on said position member into a disengaged position relative to said recesses; switch means operative only when said armature is displaced from said magnetic center of said iield structure to complete a first circuit from said source of power to said motor; a plurality of sets of normally-open contacts, each said set corresponding to a particular one of said recesses; an actuator carried by said position member; each said set of contacts being positioned to be closed by said actuawr when said detent means is mated with a corresponding one or said recesses; and a remote-control head including a function-selecting switch for completing a second circuit between said source of power and said motor through only one of said sets of contacts at a time, said head being connected to said motor by flexible multi-conductor cable, whereby upon actuation of said source of power, said motor is energized through said rst circuit to rotate said position member, said detent means butting against said stop member until said detent means can drop into one of said recesses, thus allowing said armature to be pulled toward the magnetic center of said field structure and said resilient means to break said iirst circuit, this procedure thereupon repeating until said detent means mates with a particular one of said recesses corresponding to a particular set of said contacts through which said function-selecting switch has closed said second circuit.

HOWARD S. GLEASON.

REFERENCES CITED The following references are of record in the iile of this patent:

UNITED STATES PATENTS Number Name Date 759,111 Johnson May 3, 1904 2,602,443 Thomas May 21, 1935 2,046,910 Barrett July 7, 1936 2,094,569 Pratt Oct. 5, 1937 

